Phantastron

Figure 1: Screen-coupled type of phantastron

Figure 1: Screen-coupled type of phantastron

A Phantastron is a special type of an astable multivibrator with very precise timing.
The phantastron-type circuit is considered to be a relaxation oscillator similar to the multivibrator in operation.
This circuit had special significance for the timing in ancient analogue radars.
It is basically a single pentode-type tube (pentagrid tubes are also used),
with two or three diodes arranged to control linearity, turn-on or turn-off time, and operating level.
It was invented in 1942 during radar development in World War 2 by the British engineer
Alan Dower Blumlein.[1][2]

Whereas a multivibrator derives its timing waveform from an R-C circuit,
the phantastron uses a basic Miller-type sweep generator to generate a linear timing waveform,
rather than the exponential waveform developed by the R-C circuit of the multivibrator.
Thus, the output waveform is a linear function of the input (control) voltage, and the timing stability is improved.
This d-c voltage allows a remote control of the duration of the gates.

Two types of phantastron circuits are used – the screen-coupled type uses an internally generated waveform,
generated in the screen circuit to control the suppressor electrode after the action is initiated by an input trigger.
The cathode-coupled circuit utilizes uses an internally generated waveform developed across a resistor in the cathode circuit to control operation.
Both circuits are classed as the slow-recovery type and provide reasonably fast turn-on and turn-off time.
The fast-recovery type circuit uses a separate cathode follower to help speed up operation and provide a shorter recovery time.

The relationship between the screen-coupled and cathode-coupled phantastron is considered to have the best timing accuracy,
the cathode-coupled circuit has other advantages.
For example, it does not require a negative supply and can provide both positive and negative outputs,
and it is claimed that for short ranges the linearity or the time modulation is actually better.

Figure 2: Solid state phantastron circuit

Figure 2: Solid state phantastron circuit

The phantastron circuit is used to generate a rectangular waveform, or linear sweep,
whose duration is almost directly proportional to a control voltage.
Because of its extreme linearity and accuracy, this waveform is used as a delayed timing pulse,
usually in radar or
display equipment.
It is also used to produce time-delayed trigger pulses for synchronizing purposes and movable marker signals for display.
For example it is used as a time-modulated pulse, to indicate antenna position at any instant of rotation,
or as a range strobe or delay marker.

The principle of using a Miller integrator in a monostable multivibrator as
a time-determining element may also be realized with a transistor circuit.